3D Model
Cirkul
Objective:
Perform a deep-dive mechanical analysis of a consumer product's delivery system to enhance understanding of its integrated mechanical mechanisms.
Results:
A 3D model designed in Onshape of a full multi-part assembly with complex geometries, ensuring 100% component interoperability within the CAD environment.
Technical analysis of the integrated venturi mechanism, identifying key fluid dynamic principles to be applied to future design iterations.
Fixture
Cirkul
Objective:
Establish a rigorous verification and validation framework to assess product structural integrity and ensure long-term mechanical reliability through standardized stress-testing.
Results:
Custom Mark-10 test fixture and comprehensive testing protocol to evaluate mechanical performance under load, ensuring high repeatability and data consistency across multiple trials.
Design intent and lid adaptations for different tumbler sizes.
Gauge R&R study on a 30-unit sample, which confirmed the precision of the stress-testing methodology while ensuring the process met rigorous statistical reliability standards. The study mitigated measurement bias and quantified uncertainty.
Chessboard
Personal
Objective:
Design a custom-themed chessboard assembly in SolidWorks to practice multi-part assembly management and creative component modeling.
Results:
Complete set of unique chess pieces, replacing traditional pawns with various sea animal models to explore organic shapes within a CAD environment.
Integration of 32 individual part files into a single SolidWorks assembly, ensuring proper mating, scaling, and organization of the full game set.
